G. Xue, G. Qiao | 2025 | Composites Part B: Engineering
DOI 10.1016/j.compositesb.2024.111949Review state
Last reviewed
Not reviewed yet
Last approved reanalysis
No approved reanalysis yet
This paper explores the use of thermodynamic modeling combined with experimental studies to analyze the relationship between pore solutions, product formation, and compressive strength in lunar regolith simulant geopolymers. It highlights the impact of alkali activator modulus and dosage on reactive elements in pore solutions and gel production, which are key factors affecting compressive strength. The provided text appears to be a series of URLs pointing to SVG files (likely supplementary material or figures) associated with a research paper or article. The URLs are formatted as: https://api.elsevier.com/content/object/eid/1-s2.0-S1359836824007613-siXX.svg?httpAccept=%2A%2F%2A, where XX represents a number indicating the specific figure or supplementary content. These URLs are likely part of a larger dataset or paper hosted on Elsevier's platform, possibly related to materials science or engineering, given the journal identifier '13598368' (which corresponds to the journal 'Materials Chemistry and Physics'). The text does not contain any meaningful content beyond these URLs. The paper discusses the development of lunar regolith-based materials for construction applications on the
These are the records this paper contributes to the simulant, returned sample, method, and property browsers.
lunar regolith simulant
CE-5 | lunar regolith
Leachate chemistry
Chemical extraction | Biology and plant growth
Coupling thermodynamic modelling with experimental study
Thermodynamic and experimental analysis | Lunar regolith simulant geopolymerization reaction
Geopolymerisation reaction analysis
Chemical reaction analysis
Mechanical property analysis
Mechanical performance evaluation
Compressive strength evaluation
Mechanical performance evaluation
Product formation analysis
Phase assemblage analysis
Pore solution analysis
Chemical composition analysis
Composition-performance correlation analysis
Material property correlation
Journal Identifier
13598368
Chemical composition
Describes the elemental composition of the sample.
Nutrient availability
measured from leachate, extractable nutrients, pH, or soluble salts
Compressive strength
Key factor influenced by [Si] and [Al] in pore solution and gel production
Product type and content
Affected by alkali activator modulus and dosage
Pore solution composition
Influenced by alkali activator modulus and dosage
Material design and optimization
Guided by composition-performance relationships
Environmental impact
Degradation under extreme environments